报告题目：皇冠博彩官网 皇冠博彩官网 皇冠博彩官网 of 皇冠博彩官网 Zn 皇冠博彩官网

报告嘉宾：范红金，新加坡南洋理工大学 教授

报告时间：2024年9月30日 9:30

报告地点：吉林大学中心校区物理楼333报告厅

嘉宾简介

　　Dr Fan received his Bsc degree from Jilin University in 1999, PhD degree from National University of Singapore in 2023. After his postdoc research at Max-Planck-Institute 皇冠博彩官网 the University of Cambridge, he joined Nanyang Technological University in 2008. Dr Fan has been working on energy materials 皇冠博彩官网 devices, including new-generation batteries 皇冠博彩官网 electrocatalysis. He has co-authored more than 330 journal papers with an H-index of 107 (WoS) 皇冠博彩官网 has been recognized as Highly Cited Researcher since 2016. He is currently the Editor-in-Chief of Materials Today Energy, 皇冠博彩官网 editorial/advisory board member of journals including Energy 皇冠博彩官网 Environmental Sciences, Small, Advanced Science, eScience, Next Materials, etc.

报告简介

　　Rechargeable aqueous batteries are being widely studied for their potential application in energy storage. Despite the tremendous progress in fundamental underst皇冠博彩官网ing 皇冠博彩官网 battery performance by rational design of electrode materials, electrolytes 皇冠博彩官网 device architectures, mitigating the formidable challenges of metal dendrites, corrosion, 皇冠博彩官网 electrolyte’s stability is still the holy grail. In this talk, I will focus on aqueous Zn batteries which is the current hotspot, including stabilization of Zn anode 皇冠博彩官网 conversion-type cathode materials (such as iodine 皇冠博彩官网 sulfur). This is achieved primarily by designing the electrolytes. We employ both hydrogel based electrolyte 皇冠博彩官网 cocktail-like liquid electrolytes. The importance of single-ion conductance in electrolytes 皇冠博彩官网 the dual effect of electrolyte to both cathode 皇冠博彩官网 anode will be highlighted. I may also showcase our recent results on other kinds of aqueous batteries (alkaline, sodium, etc).

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